#define BOOST_TEST_MODULE UDQ_Data

#include <boost/test/unit_test.hpp>

#include <opm/output/eclipse/AggregateUDQData.hpp>

#include <opm/output/eclipse/AggregateConnectionData.hpp>
#include <opm/output/eclipse/AggregateGroupData.hpp>
#include <opm/output/eclipse/AggregateWellData.hpp>
#include <opm/output/eclipse/DoubHEAD.hpp>
#include <opm/output/eclipse/InteHEAD.hpp>
#include <opm/output/eclipse/UDQDims.hpp>
#include <opm/output/eclipse/VectorItems/intehead.hpp>
#include <opm/output/eclipse/WriteRestartHelpers.hpp>

#include <opm/output/data/Wells.hpp>

#include <opm/io/eclipse/ERst.hpp>
#include <opm/io/eclipse/OutputStream.hpp>
#include <opm/io/eclipse/RestartFileView.hpp>
#include <opm/io/eclipse/rst/state.hpp>

#include <opm/input/eclipse/EclipseState/EclipseState.hpp>
#include <opm/input/eclipse/EclipseState/Grid/RegionSetMatcher.hpp>

#include <opm/input/eclipse/Python/Python.hpp>

#include <opm/input/eclipse/Schedule/Action/State.hpp>
#include <opm/input/eclipse/Schedule/MSW/SegmentMatcher.hpp>
#include <opm/input/eclipse/Schedule/Schedule.hpp>
#include <opm/input/eclipse/Schedule/ScheduleState.hpp>
#include <opm/input/eclipse/Schedule/SummaryState.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQActive.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQConfig.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQEnums.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQInput.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQParams.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQSet.hpp>
#include <opm/input/eclipse/Schedule/UDQ/UDQState.hpp>
#include <opm/input/eclipse/Schedule/Well/WellMatcher.hpp>
#include <opm/input/eclipse/Schedule/Well/WellTestState.hpp>

#include <opm/input/eclipse/Units/UnitSystem.hpp>
#include <opm/input/eclipse/Units/Units.hpp>

#include <opm/common/utility/TimeService.hpp>

#include <opm/input/eclipse/Parser/Parser.hpp>

#include <opm/input/eclipse/Deck/Deck.hpp>

#include <algorithm>
#include <cstddef>
#include <exception>
#include <memory>
#include <stdexcept>
#include <string>
#include <utility>
#include <vector>

#include "tests/WorkArea.hpp"

namespace {

    Opm::Deck first_sim(const std::string& fname)
    {
        return Opm::Parser{}.parseFile(fname);
    }

#if 0
    Opm::UDQActive udq_active()
    {
        int update_count = 0;
        // construct record data for udq_active
        Opm::UDQParams params;
        Opm::UDQConfig conf(params);
        Opm::UDQActive udq_act;
        Opm::UDAValue uda1("WUOPRL");
        update_count += udq_act.update(conf, uda1, "PROD1", Opm::UDAControl::WCONPROD_ORAT);

        Opm::UDAValue uda2("WULPRL");
        update_count += udq_act.update(conf, uda2, "PROD1", Opm::UDAControl::WCONPROD_LRAT);
        Opm::UDAValue uda3("WUOPRU");
        update_count += udq_act.update(conf, uda3, "PROD2", Opm::UDAControl::WCONPROD_ORAT);
        Opm::UDAValue uda4("WULPRU");
        update_count += udq_act.update(conf, uda4, "PROD2", Opm::UDAControl::WCONPROD_LRAT);

        for (std::size_t index = 0; index < udq_act.IUAD_size(); ++index) {
            const auto & record = udq_act[index];
            auto ind = record.input_index;
            auto udq_key = record.udq;
            auto name = record.wgname;
            auto ctrl_type = record.control;
        }

        return udq_act;
    }
#endif

    Opm::UDQSet
    make_udq_set(const std::string&              name,
                 const Opm::UDQVarType           var_type,
                 const std::vector<std::string>& wgnames,
                 const std::vector<double>&      values)
    {
        Opm::UDQSet s(name, var_type, wgnames);

        for (std::size_t i = 0; i < values.size(); ++i) {
            s.assign(i, values[i]);
        }

        return s;
    }

    Opm::UDQState make_udq_state()
    {
        auto state = Opm::UDQState{0};

        state.add_define(0, "WUOPRL", make_udq_set("WUOPRL",
                                                   Opm::UDQVarType::WELL_VAR,
                                                   {"PROD1", "PROD2", "WINJ1", "WINJ2"},
                                                   {210, 211, 212, 213}));

        state.add_define(0, "WUOPRU", make_udq_set("WUOPRU",
                                                   Opm::UDQVarType::WELL_VAR,
                                                   {"PROD1", "PROD2", "WINJ1", "WINJ2"},
                                                   {220, 221, 222, 223}));

        // The WULPRL should really be an ASSIGN
        state.add_define(0, "WULPRL", make_udq_set("WULPRL",
                                                   Opm::UDQVarType::WELL_VAR,
                                                   {"PROD1", "PROD2", "WINJ1", "WINJ2"},
                                                   {400, 400, 400, 400}));

        state.add_define(0, "WULPRU", make_udq_set("WULPRU",
                                                   Opm::UDQVarType::WELL_VAR,
                                                   {"PROD1", "PROD2", "WINJ1", "WINJ2"},
                                                   {160, 161, 162, 163}));

        state.add_define(0, "GUOPRU", make_udq_set("GUOPRU",
                                                   Opm::UDQVarType::GROUP_VAR,
                                                   {"WGRP1", "WGRP2", "GRP1"},
                                                   {360, 361, 362}));

        state.add_define(0, "FULPR", Opm::UDQSet::scalar("FULPR", 460));

        state.add_define(0, "FU_TEST", Opm::UDQSet::scalar("FU_TEST", 1234.5));

        return state;
    }

    Opm::SummaryState sum_state(const double udqUndef)
    {
        auto state = Opm::SummaryState{Opm::TimeService::now(), udqUndef};

        state.update_well_var("PROD1", "WUOPRL", 210.);
        state.update_well_var("PROD2", "WUOPRL", 211.);
        state.update_well_var("WINJ1", "WUOPRL", 212.);
        state.update_well_var("WINJ2", "WUOPRL", 213.);

        state.update_well_var("PROD1", "WULPRL", 400.);
        state.update_well_var("PROD2", "WULPRL", 400.);
        state.update_well_var("WINJ1", "WULPRL", 400.);
        state.update_well_var("WINJ2", "WULPRL", 400.);

        state.update_well_var("PROD1", "WUOPRU", 220.);
        state.update_well_var("PROD2", "WUOPRU", 221.);
        state.update_well_var("WINJ1", "WUOPRU", 222.);
        state.update_well_var("WINJ2", "WUOPRU", 223.);

        state.update_group_var("WGRP1", "GUOPRU", 360.);
        state.update_group_var("WGRP2", "GUOPRU", 361.);
        state.update_group_var("GRP1",  "GUOPRU", 362.);

        state.update_well_var("PROD1", "WULPRU", 160.);
        state.update_well_var("PROD2", "WULPRU", 161.);
        state.update_well_var("WINJ1", "WULPRU", 162.);
        state.update_well_var("WINJ2", "WULPRU", 163.);

        state.update("FULPR", 460.);
        state.update("FU_TEST", 1234.5);

        state.update_well_var("PROD1", "WOPR", 1.0);
        state.update_well_var("PROD2", "WOPR", 1.0);
        state.update_well_var("WINJ1", "WOPR", 0.0);
        state.update_well_var("WINJ2", "WOPR", 0.0);
        state.update_well_var("PROD1", "WLPR", 1.0);
        state.update_well_var("PROD2", "WLPR", 1.0);

        state.update_group_var("GRP1", "GOPR", 1.0);

        state.update("FOPR", 145);
        state.update("FLPR", 45);
        state.update("FWPR", 450);

        state.update_region_var("RE2", "ROIP", 1, 100.0);
        state.update_region_var("RE2", "ROIP", 2, 200.0);
        state.update_region_var("RE2", "ROIP", 3, 300.0);

        state.update_region_var("RE2", "RGPR", 1, 123.4);
        state.update_region_var("RE2", "RGPR", 2, 246.8);
        state.update_region_var("RE2", "RGPR", 3, 369.12);

        state.update_group_var("TEST", "GEFF", 0.987);
        state.update("FUGASX", -0.15);

        return state;
    }

    struct SimulationCase
    {
        explicit SimulationCase(const Opm::Deck& deck,
                                const bool needFipRegStat = false)
            : es   { deck }
            , grid { deck }
            , sched{ deck, es, std::make_shared<Opm::Python>() }
        {
            if (needFipRegStat) {
                this->es.computeFipRegionStatistics();
            }
        }

        // Order requirement: 'es' must be declared/initialised before 'sched'.
        Opm::EclipseState es;
        Opm::EclipseGrid  grid;
        Opm::Schedule     sched;
        Opm::Parser       parser;
    };

    bool udq_contains(const std::vector<Opm::UDQActive::RstRecord>& records,
                      const Opm::UDAControl                         control,
                      const std::string&                            udq,
                      const std::string&                            wgname)
    {
        auto find_iter = std::find_if(records.begin(), records.end(),
            [&control, &udq, &wgname](const Opm::UDQActive::RstRecord& record)
            {
                return (record.control == control)
                    && (record.wgname == wgname)
                    && (record.value.get<std::string>() == udq);
            });

        return find_iter != records.end();
    }

}

// ---------------------------------------------------------------------------

BOOST_AUTO_TEST_SUITE(Aggregate_UDQ)

// test constructed UDQ restart data
BOOST_AUTO_TEST_CASE (Declared_UDQ_data)
{
    const auto needFipRegStatistics = true;
    const auto simCase = SimulationCase {
        first_sim("UDQ_TEST_WCONPROD_IUAD-2.DATA"),
        needFipRegStatistics
    };

    const auto& es = simCase.es;
    const auto& sched = simCase.sched;
    const auto& grid = simCase.grid;

    auto st = sum_state(es.runspec().udqParams().undefinedValue());

    st.update("TIME", 3.1415 * 86400.0);

    auto udq_state = make_udq_state();

    const auto& ioConfig = es.getIOConfig();

    // Report Step 1: 2008-10-10 --> 2011-01-20
    const auto rptStep = std::size_t{1};

    const auto secs_elapsed = 3.1536E07;

    const auto ih = Opm::RestartIO::Helpers::
        createInteHead(es, grid, sched, secs_elapsed,
                       rptStep, rptStep, rptStep - 1);

    // Dummy value for next_step_size
    const auto next_step_size = 0.1;

    const auto dh = Opm::RestartIO::Helpers::
        createDoubHead(es, sched, rptStep - 1, rptStep,
                       secs_elapsed, next_step_size);

    const auto udqDims = Opm::UDQDims { sched[rptStep - 1].udq(), ih };

    auto udqData = Opm::RestartIO::Helpers::AggregateUDQData(udqDims);
    udqData.captureDeclaredUDQData(sched, rptStep - 1, udq_state, ih);

    {
        WorkArea work;

        {
            const std::string outputDir = "./";
            const std::string baseName = "TEST_UDQRST";

            Opm::EclIO::OutputStream::Restart rstFile {
                Opm::EclIO::OutputStream::ResultSet { outputDir, baseName},
                rptStep,
                Opm::EclIO::OutputStream::Formatted { ioConfig.getFMTOUT() },
                Opm::EclIO::OutputStream::Unified   { ioConfig.getUNIFOUT() }
            };

            const auto lh = Opm::RestartIO::Helpers::createLogiHead(es);

            rstFile.write("INTEHEAD", ih);
            rstFile.write("DOUBHEAD", dh);
            rstFile.write("LOGIHEAD", lh);

            {
                auto group_aggregator = Opm::RestartIO::Helpers::AggregateGroupData(ih);
                group_aggregator.captureDeclaredGroupData(sched, es.getUnits(),
                                                          rptStep - 1, st, ih);

                rstFile.write("IGRP", group_aggregator.getIGroup());
                rstFile.write("SGRP", group_aggregator.getSGroup());
                rstFile.write("XGRP", group_aggregator.getXGroup());
                rstFile.write("ZGRP", group_aggregator.getZGroup());
            }

            {
                auto action_state = Opm::Action::State {};
                auto wtest_state = Opm::WellTestState {};

                auto well_aggregator = Opm::RestartIO::Helpers::AggregateWellData(ih);
                well_aggregator.captureDeclaredWellData(sched, es.tracer(), rptStep-1,
                                                        action_state, wtest_state, st, ih);

                rstFile.write("IWEL", well_aggregator.getIWell());
                rstFile.write("SWEL", well_aggregator.getSWell());
                rstFile.write("XWEL", well_aggregator.getXWell());
                rstFile.write("ZWEL", well_aggregator.getZWell());
            }

            {
                auto conn_aggregator = Opm::RestartIO::Helpers::AggregateConnectionData(ih);
                auto xw = Opm::data::Wells {};
                conn_aggregator.captureDeclaredConnData(sched, grid, es.getUnits(), xw, st, rptStep-1);

                rstFile.write("ICON", conn_aggregator.getIConn());
                rstFile.write("SCON", conn_aggregator.getSConn());
                rstFile.write("XCON", conn_aggregator.getXConn());
            }

            rstFile.write("ZUDN", udqData.getZUDN());
            rstFile.write("ZUDL", udqData.getZUDL());
            rstFile.write("IUDQ", udqData.getIUDQ());

            rstFile.write("DUDF", udqData.getDUDF()->data());
            rstFile.write("DUDG", udqData.getDUDG()->data());
            rstFile.write("DUDW", udqData.getDUDW()->data());

            rstFile.write("IUAD", udqData.getIUAD()->data());
            rstFile.write("IUAP", udqData.getIUAP()->data());
            rstFile.write("IGPH", udqData.getIGPH()->data());
        }

        {
            // Check of InteHEAD and DoubHEAD data for UDQ variables
            //
            //       INTEHEAD
            //
            //       UDQPARAM (1)  = - InteHead [267 ]
            //
            //       ----------------------------------------------
            //
            //       DOUBHEAD
            //
            //       UDQPARAM (2)  =  Doubhead [212]
            //       UDQPARAM (3)  =  Doubhead [213]
            //       UDQPARAM (4)  =  Doubhead [214]

            BOOST_CHECK_EQUAL(ih[267], -1);
            BOOST_CHECK_EQUAL(dh[212], 1.0E+20);
            BOOST_CHECK_EQUAL(dh[213], 0.0);
            BOOST_CHECK_EQUAL(dh[214], 1.0E-4);
        }

        {
            // IUDQ
            // 3- integers pr UDQ (line/quantity)
            //
            // Integer no 1 = type of UDQ (       0 - ASSIGN, UPDATE-OFF
            // 1-update+NEXT,
            // 2 - DEFINE,  2- UPDATE-ON
            // 3 - units)
            //
            // Integer no 2 = -4    : used for  ASSIGN - numerical value
            // -4   : used for DEFINE
            // -1  : used for DEFINE MIN() function, SUM()  function, AVEA() function
            // -4  : used for DEFINE MAX() - function - also used for SUM() function - must check on (-1 -
            // value) 1  : used for UPDATE quantity
            //
            // Integer no 3 = sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)
            // (1 - based)
            //
            // NOTE: UPDATE - does not define a new quantity, only updates an alredy defined quantity!

            const auto& iUdq = udqData.getIUDQ();

            auto start = 0 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 1 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 1
            BOOST_CHECK_EQUAL(iUdq[start + 2], 1); // udq NO. 1 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 1 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 0); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], 0); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 2); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 2 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 3); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 3 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 1); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 4 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 4); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 5 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 1); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 6 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -25); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 2); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 7 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 3); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 8 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 4); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 9 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -5); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 5); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 10 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -8); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 6); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 11 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 7); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 12 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -5); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 8); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 13 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -3); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 9); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 14 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 10); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 15 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -2); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 11); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 16 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -3); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 12); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 17 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 13); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 18 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 14); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 19 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -3); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 15); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 20 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -5); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 16); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 21 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -5); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 17); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 22 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], 1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 18); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 23 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], 1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 19); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 24 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 20); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 25 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 21); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 26 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -2); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 22); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 27 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 23); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 28 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -2); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 24); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 29 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -2); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 25); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 30 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -8); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 26); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 31 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -6); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 27); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 32 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 28); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 33 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -5); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 29); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 34 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 30); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 35 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -8); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 31); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 36 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 32); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 37 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -5); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 33); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 38 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -6); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 34); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 39 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 35); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 40 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 36); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 41 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -6); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 37); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 42 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -2); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 38); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 43 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -4); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 39); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)

            start = 44 * Opm::UDQDims::entriesPerIUDQ();
            BOOST_CHECK_EQUAL(iUdq[start + 0], 2); // udq NO. 2 - ( 0 - ASSIGN, 2 - DEFINE)
            BOOST_CHECK_EQUAL(iUdq[start + 1], -1); // udq NO. 2
            BOOST_CHECK_EQUAL(iUdq[start + 2], 40); // udq NO. 2 - (sequence number of UDQ pr type (CU, FU, GU, RU, , SU, WU, AU or BU etc.)
        }

        {
            // IUAD:
            // Sequences of 5 items pr UDQ that is used for various well and group controls,
            // i.e. sorted on the various active controls, see list for item (1).This means that
            // one udq can occur several times, one for each control it is used for
            // Only the active controls are output - and the sequence is according to when
            // they are defined
            //
            // dimension 5*no_of_udq-constraint-used in well and group controls
            //
            // item (1) : =    200000 + 19 for GCONPROD  and  ORAT
            // 300000 + 19 for GCONPROD  and  WRAT
            // 400000 + 19 for GCONPROD  and  GRAT
            // 500000 + 19 for GCONPROD  and   LRAT
            // 300000 + 4   for WCONPROD + oil rate target or upper limit
            // 400000 + 4   for WCONPROD + water rate target or upper limit
            // 500000 + 4   for WCONPROD + gas rate target or upper limit
            // 600000 + 4   for WCONPROD + liquid rate target or upper limit
            // ? 300000 + 3   for WCONINJE   + oil rate target or upper limit
            // 400000 + 3   for WCONINJE   + surface rate target or upper limit
            // 500000 + 3   for WCONINJE   + reservoir volume  rate target or upper limit
            // 1000000 + 27 for CECON  + minimum oil rate
            //
            // item (2)  - sequence number of UDQ used (from input sequence) for the actual constraint/target
            //
            // item (3)  - do not know yet  (value: 1)
            // item (4)  - number of times the UDQ variable is used (e.g. for several different wells)
            // item (5)  - the sequence number for the first use of the actual UDQ (index  i+1) = 1+sum over <the first i
            // udq's in use >(no_use_udq(i))

            const auto& iUad = udqData.getIUAD()->data();

            auto start = 0 * Opm::UDQDims::entriesPerIUAD();
            BOOST_CHECK_EQUAL(iUad[start + 0], 300'004); // iuad NO. 1
            BOOST_CHECK_EQUAL(iUad[start + 1], 3); // iuad NO. 1
            BOOST_CHECK_EQUAL(iUad[start + 2], 1); // iuad NO. 1
            BOOST_CHECK_EQUAL(iUad[start + 3], 2); // iuad NO. 1
            BOOST_CHECK_EQUAL(iUad[start + 4], 1); // iuad NO. 1

            start = 1 * Opm::UDQDims::entriesPerIUAD();
            BOOST_CHECK_EQUAL(iUad[start + 0], 600'004); // iuad NO. 2
            BOOST_CHECK_EQUAL(iUad[start + 1], 5); // iuad NO. 2
            BOOST_CHECK_EQUAL(iUad[start + 2], 1); // iuad NO. 2
            BOOST_CHECK_EQUAL(iUad[start + 3], 2); // iuad NO. 2
            BOOST_CHECK_EQUAL(iUad[start + 4], 3); // iuad NO. 2
        }

        {
            // ZUDN:
            // contains  UDQ keyword data:
            // Pairs of:
            // quantity name (item2): e.g. 'WUOPRL  '  and
            // units: e.g.: 'SM3/DAY '
            //
            // Length is  dependent on number of UDQ quantities =  2*no of UDQ's

            const auto& zUdn = udqData.getZUDN();

            auto start = 0 * Opm::UDQDims::entriesPerZUDN();
            BOOST_CHECK_EQUAL(zUdn[start + 0].c_str(), "WUOPRL  "); // udq NO. 1
            BOOST_CHECK_EQUAL(zUdn[start + 1].c_str(), "SM3/DAY "); // udq NO. 1

            start = 1 * Opm::UDQDims::entriesPerZUDN();
            BOOST_CHECK_EQUAL(zUdn[start + 0].c_str(), "WULPRL  "); // udq NO. 2
            BOOST_CHECK_EQUAL(zUdn[start + 1].c_str(), "SM3/DAY "); // udq NO. 2

            start = 2 * Opm::UDQDims::entriesPerZUDN();
            BOOST_CHECK_EQUAL(zUdn[start + 0].c_str(), "WUOPRU  "); // udq NO. 3
            BOOST_CHECK_EQUAL(zUdn[start + 1].c_str(), "SM3/DAY "); // udq NO. 3

            start = 3 * Opm::UDQDims::entriesPerZUDN();
            BOOST_CHECK_EQUAL(zUdn[start + 0].c_str(), "GUOPRU  "); // udq NO. 4
            BOOST_CHECK_EQUAL(zUdn[start + 1].c_str(), "SM3/DAY "); // udq NO. 4

            start = 4 * Opm::UDQDims::entriesPerZUDN();
            BOOST_CHECK_EQUAL(zUdn[start + 0].c_str(), "WULPRU  "); // udq NO. 5
            BOOST_CHECK_EQUAL(zUdn[start + 1].c_str(), "SM3/DAY "); // udq NO. 5

            start = 5 * Opm::UDQDims::entriesPerZUDN();
            BOOST_CHECK_EQUAL(zUdn[start + 0].c_str(), "FULPR   "); // udq NO. 6
            BOOST_CHECK_EQUAL(zUdn[start + 1].c_str(), "SM3/DAY "); // udq NO. 6
        }

        {
            // ZUDL:
            // contains string that define the "Data for operation" for the defined quantity
            //
            // e.g.
            // '(WOPR OP' 'L01 - 15' '0) * 0.9' '0       ' '        ' '        ' '        '
            //
            // The appropriate data are split into strings of 8 characters each.
            //
            // Length: No of UDQ's * 16

            const auto& zUdl = udqData.getZUDL();

            // UDQ 1
            // DEFINE WUOPRL (WOPR PROD1 - 170) * 0.60 /
            auto start = 0 * Opm::UDQDims::entriesPerZUDL();
            BOOST_CHECK_EQUAL(zUdl[start + 0].c_str(), "(WOPR PR");
            BOOST_CHECK_EQUAL(zUdl[start + 1].c_str(), "OD1 - 17");
            BOOST_CHECK_EQUAL(zUdl[start + 2].c_str(), "0) * 0.6");
            BOOST_CHECK_EQUAL(zUdl[start + 3].c_str(), "0       ");

            // UDQ 4
            // DEFINE GUOPRU (GOPR GRP1 - 449) * 0.77 /
            start = 3 * Opm::UDQDims::entriesPerZUDL();
            BOOST_CHECK_EQUAL(zUdl[start + 0].c_str(), "(GOPR GR");
            BOOST_CHECK_EQUAL(zUdl[start + 1].c_str(), "P1 - 449");
            BOOST_CHECK_EQUAL(zUdl[start + 2].c_str(), ") * 0.77");
            BOOST_CHECK_EQUAL(zUdl[start + 3].c_str(), "        ");

            // UDQ 5
            // DEFINE WULPRU (WLPR PROD2 - 300) * 0.80 /
            start = 4 * Opm::UDQDims::entriesPerZUDL();
            BOOST_CHECK_EQUAL(zUdl[start + 0].c_str(), "(WLPR PR");
            BOOST_CHECK_EQUAL(zUdl[start + 1].c_str(), "OD2 - 30");
            BOOST_CHECK_EQUAL(zUdl[start + 2].c_str(), "0) * 0.8");
            BOOST_CHECK_EQUAL(zUdl[start + 3].c_str(), "0       ");

            // UDQ 6
            // DEFINE FULPR (FLPR - 543) * 0.65 /
            start = 5 * Opm::UDQDims::entriesPerZUDL();
            BOOST_CHECK_EQUAL(zUdl[start + 0].c_str(), "(FLPR - ");
            BOOST_CHECK_EQUAL(zUdl[start + 1].c_str(), "543) * 0");
            BOOST_CHECK_EQUAL(zUdl[start + 2].c_str(), ".65     ");
            BOOST_CHECK_EQUAL(zUdl[start + 3].c_str(), "        ");

            // UDQ 7 (from opm-tests/udq_actionx/UDQ_REG-02.DATA)
            //
            // Exactly 128 characters long (16 slots of 8 characters each).
            //
            // DEFINE FU_TEST (ROIP_RE2 2)/(FURE2)*(0.3*(RGPR_RE2 1)+(RGPR_RE2 2)+(RGPR_RE2 3))/(GEFF TEST)*(1+FUGASX)+((1.0*TIME*TIME-75.0*TIME+1250)*50.123)  /
            start = 6 * Opm::UDQDims::entriesPerZUDL();
            BOOST_CHECK_EQUAL(zUdl[start +  0].c_str(), "(ROIP_RE");
            BOOST_CHECK_EQUAL(zUdl[start +  1].c_str(), "2 2)/(FU");
            BOOST_CHECK_EQUAL(zUdl[start +  2].c_str(), "RE2)*(0.");
            BOOST_CHECK_EQUAL(zUdl[start +  3].c_str(), "3*(RGPR_");
            BOOST_CHECK_EQUAL(zUdl[start +  4].c_str(), "RE2 1)+(");
            BOOST_CHECK_EQUAL(zUdl[start +  5].c_str(), "RGPR_RE2");
            BOOST_CHECK_EQUAL(zUdl[start +  6].c_str(), " 2)+(RGP"); // <- Leading blank here!
            BOOST_CHECK_EQUAL(zUdl[start +  7].c_str(), "R_RE2 3)");
            BOOST_CHECK_EQUAL(zUdl[start +  8].c_str(), ")/(GEFF "); // <- Trailing blank here!
            BOOST_CHECK_EQUAL(zUdl[start +  9].c_str(), "TEST)*(1");
            BOOST_CHECK_EQUAL(zUdl[start + 10].c_str(), "+FUGASX)");
            BOOST_CHECK_EQUAL(zUdl[start + 11].c_str(), "+((1.0*T");
            BOOST_CHECK_EQUAL(zUdl[start + 12].c_str(), "IME*TIME");
            BOOST_CHECK_EQUAL(zUdl[start + 13].c_str(), "-75.0*TI");
            BOOST_CHECK_EQUAL(zUdl[start + 14].c_str(), "ME+1250)");
            BOOST_CHECK_EQUAL(zUdl[start + 15].c_str(), "*50.123)");
        }

        {
            // 'DUDW    '          24 'DOUB'
            //
            // Dimension = max no wells * no of UDQ's
            // Value = value of UDQ for the different wells

            const auto& dUdw = udqData.getDUDW();

            BOOST_CHECK_MESSAGE(dUdw.has_value(), "There must be well level UDQ results");

            auto start = 0 * udqDims.maxNumWells();
            BOOST_CHECK_EQUAL(dUdw->data()[start + 0], 210); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 1], 211); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 2], 212); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 3], 213); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 4], -0.3E+21); // duDw NO. 1

            start = 1 * udqDims.maxNumWells();
            BOOST_CHECK_EQUAL(dUdw->data()[start + 0], 400); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 1], 400); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 2], 400); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 3], 400); // duDw NO. 1
            BOOST_CHECK_EQUAL(dUdw->data()[start + 4], -0.3E+21); // duDw NO. 1
        }

        {
            // 'DUDG    '          5 'DOUB'
            //
            // Dimension = (max no groups+1) * no of group UDQ's
            // Value = value of UDQ for the different groups

            const auto& dUdg = udqData.getDUDG();

            BOOST_CHECK_MESSAGE(dUdg.has_value(), "There must be group level UDQ results");

            auto start = 0 * udqDims.maxNumGroups();
            BOOST_CHECK_EQUAL(dUdg->data()[start + 0], 362); // duDg NO. 1
            BOOST_CHECK_EQUAL(dUdg->data()[start + 1], 360); // duDg NO. 1
            BOOST_CHECK_EQUAL(dUdg->data()[start + 2], 361); // duDg NO. 1
            BOOST_CHECK_EQUAL(dUdg->data()[start + 3], -0.3E+21); // duDg NO. 1
            BOOST_CHECK_EQUAL(dUdg->data()[start + 4], -0.3E+21); // duDg NO. 1
        }

        {
            // 'DUDG    '          1 'DOUB'
            //
            // Dimension = 1 * no of Field UDQ's
            // Value = value of UDQ for the field

            const auto& dUdf = udqData.getDUDF();

            BOOST_CHECK_MESSAGE(dUdf.has_value(), "There must be field level UDQ results");

            auto start = 0 * udqDims.numFieldUDQs();
            BOOST_CHECK_EQUAL(dUdf->data()[start + 0], 460); // duDf NO. 1
        }

        {
            auto rst_file = std::make_shared<Opm::EclIO::ERst>("TEST_UDQRST.UNRST");
            auto rst_view = std::make_shared<Opm::EclIO::RestartFileView>(std::move(rst_file), 1);
            auto rst_state = Opm::RestartIO::RstState::load(std::move(rst_view),
                                                            es.runspec(),
                                                            simCase.parser);

            BOOST_CHECK_EQUAL(rst_state.header.nwell_udq, 4);
            BOOST_CHECK_EQUAL(rst_state.header.ngroup_udq, 1);
            BOOST_CHECK_EQUAL(rst_state.header.nfield_udq, 40);
            BOOST_CHECK_EQUAL(rst_state.header.num_udq(), 45);
            BOOST_CHECK_EQUAL(rst_state.udqs.size(), 45);

            const auto expected = std::vector<std::pair<std::string, std::string>> {
                {"WUOPRL", "SM3/DAY"},
                {"WULPRL", "SM3/DAY"},
                {"WUOPRU", "SM3/DAY"},
                {"GUOPRU", "SM3/DAY"},
                {"WULPRU", "SM3/DAY"},
                {"FULPR" , "SM3/DAY"},
            };

            std::size_t iudq = 0;
            for (const auto& [name, unit] : expected) {
                BOOST_CHECK_EQUAL(name, rst_state.udqs[iudq].name);
                BOOST_CHECK_EQUAL(unit, rst_state.udqs[iudq].unit);
                iudq += 1;
            }

            const std::size_t report_step = 1;
            const auto& udq_params = es.runspec().udqParams();
            const auto& input_config = sched[report_step].udq();
            Opm::UDQConfig rst_config(udq_params, rst_state);
            BOOST_CHECK_EQUAL(input_config.size(), rst_config.size());
            BOOST_CHECK_EQUAL(input_config.definitions().size(), rst_config.definitions().size());

            const auto wells = std::vector<std::string> {
                "PROD1", "PROD2", "WINJ1", "WINJ2",
            };
            Opm::UDQState rst_udq_state(udq_params.undefinedValue());
            Opm::UDQFunctionTable udqft(udq_params);
            auto wm = Opm::WellMatcher(wells);

            auto factories = Opm::UDQContext::MatcherFactories {};
            factories.regions = [&es]()
            {
                return std::make_unique<Opm::RegionSetMatcher>
                    (es.fipRegionStatistics());
            };

            Opm::UDQContext input_context(udqft, wm, sched[report_step].group_order(), {}, factories, st, udq_state);
            Opm::UDQContext rst_context(udqft, wm, sched[report_step].group_order(), {}, factories, st, rst_udq_state);

            rst_udq_state.load_rst(rst_state);
            for (const auto& input_def : input_config.definitions()) {
                const auto& rst_def = rst_config.define(input_def.keyword());
                auto input_eval = input_def.eval(input_context);
                auto rst_eval = rst_def.eval(rst_context);

                BOOST_CHECK(input_eval == rst_eval);
            }

            for (const auto& input_assign : input_config.assignments()) {
                const auto& rst_assign = rst_config.assign(input_assign.keyword());

                const auto input_eval = input_assign.eval(wells);
                const auto rst_eval = rst_assign.eval(wells);

                BOOST_CHECK_MESSAGE(input_eval == rst_eval,
                                    "UDQ assignments for '"
                                    << rst_assign.keyword() <<
                                    "' of type "
                                    << Opm::UDQ::typeName(rst_assign.var_type())
                                    << " must provide the same "
                                    "values in both input and restart cases.");
            }

            const auto uda_records =
                Opm::UDQActive::load_rst(es.getUnits(), input_config, rst_state,
                                         sched.wellNames(report_step),
                                         sched.groupNames(report_step));

            BOOST_CHECK_EQUAL(uda_records.size(), 4);
            BOOST_CHECK(udq_contains(uda_records, Opm::UDAControl::WCONPROD_ORAT, "WUOPRU", "PROD1"));
            BOOST_CHECK(udq_contains(uda_records, Opm::UDAControl::WCONPROD_LRAT, "WULPRU", "PROD1"));
            BOOST_CHECK(udq_contains(uda_records, Opm::UDAControl::WCONPROD_ORAT, "WUOPRU", "PROD2"));
            BOOST_CHECK(udq_contains(uda_records, Opm::UDAControl::WCONPROD_LRAT, "WULPRU", "PROD2"));
        }
    }
}

// test constructed UDQ restart data
BOOST_AUTO_TEST_CASE (Declared_UDQ_data_2)
{
    const auto simCase = SimulationCase{
        first_sim("9_4C_WINJ_GINJ_UDQ_MSW-UDARATE_TEST_PACK.DATA")
    };

    const auto& es    = simCase.es;
    const auto& st    = sum_state(es.runspec().udqParams().undefinedValue());
    const auto& sched = simCase.sched;
    const auto& grid  = simCase.grid;

    const auto udq_state = make_udq_state();

    // Dummy values
    const double next_step_size = 0.1;
    const auto secs_elapsed = 3.1536E07;

    // Report Step 1: 2018-12-05
    {
        const auto rptStep = std::size_t{1};
        const auto simStep = rptStep - 1;

        auto ih = Opm::RestartIO::Helpers::
            createInteHead(es, grid, sched, secs_elapsed,
                           rptStep, rptStep, simStep);

        const auto dh = Opm::RestartIO::Helpers::
            createDoubHead(es, sched, simStep, simStep + 1,
                           secs_elapsed, next_step_size);

        const auto udqDims = Opm::UDQDims { sched[simStep].udq(), ih };

        auto udqData = Opm::RestartIO::Helpers::AggregateUDQData(udqDims);
        udqData.captureDeclaredUDQData(sched, simStep, udq_state, ih);

        const auto& iGph = udqData.getIGPH()->data();

        BOOST_CHECK_GT(udqDims.numIGPH(), 0);
        BOOST_CHECK_EQUAL(iGph[0], 3); // (3 - gas injection)
    }

    // Report Step 4: 2018-12-20
    {
        const auto rptStep = std::size_t{4};
        const auto simStep = rptStep - 1;

        const auto ih = Opm::RestartIO::Helpers::
            createInteHead(es, grid, sched, secs_elapsed,
                           rptStep, rptStep, simStep);

        const auto dh = Opm::RestartIO::Helpers::
            createDoubHead(es, sched, simStep, simStep + 1,
                           secs_elapsed, next_step_size);

        const auto udqDims = Opm::UDQDims { sched[simStep].udq(), ih };

        auto udqData = Opm::RestartIO::Helpers::AggregateUDQData(udqDims);
        udqData.captureDeclaredUDQData(sched, simStep, udq_state, ih);

        const auto& iGph = udqData.getIGPH()->data();

        BOOST_CHECK_GT(udqDims.numIGPH(), 0);
        BOOST_CHECK_EQUAL(iGph[0], 2); // (2 - water injection)
    }
}

BOOST_AUTO_TEST_SUITE_END() // Aggregate_UDQ
